Title: Building Proteins
1Building Proteins
- From DNA to protein molecules
- 12-3
2By the end of this lesson, you should be able to
- Tell how DNA differs from RNA
- Compare the 3 types of RNA
- Describe the process of transcription
- Describe the process of translation
- Explain the relationship between genes and
proteins - Explain how a mutation occurs
3You Previously Learned
- What DNA stands for
- The structure/parts of DNA
- The function of DNA
- Moving on.
4How does the information on the DNA get used by
the cell?
- Proteins NEED to be made!!!
- By who?
- How does the information get there?
5Genes sections of DNA that code for a protein
ONE Gene ? RNA ? ONE Protein
6Types of RNA
- Messenger RNA (mRNA)
- Ribosomal RNA (rRNA)
- Transfer RNA (tRNA)
rRNA
7Types of RNA
- Messenger RNA (mRNA)- carry instructions on the
DNA to the ribosome - Ribosomal RNA (rRNA)-make-up the ribosome
- Transfer RNA (tRNA)-carries the correct amino
acid to the ribosome to build proteins
8How is it different from DNA?
- Carries out the cells instructions instead of
- Is single stranded instead of
- Contains the sugar ribose instead of
- Contains the nitrogenous base Uracil that binds
to adenine instead of.
9Process of Transcription
- 1) RNA polymerase binds to the promoter region on
the DNA - Promoters nucleotide sequence that signals the
RNA polymerase to bind to them - 2) RNA polymerase separates the DNA strands
10Process of Transcription
- 3) Following the base pairing rules, the RNA
polymerase adds the correct sequence of
nucleotides to the growing RNA molecule - 4) The RNA strand stops growing when the RNA
polymerase reaches the STOP signal on the DNA - 5) The RNA is edited before it is used by the cell
11Transcription
12RNA editing
Introns non-coding segments of RNA Exons
regions of the RNA that code for proteins
13Its your turn.You be the RNA polymerase binding
to this gene
DNA
A T G G C C A T T C G A C G T A
T A C C G G T A A G C T G C A T
RNA
14Then what?Psst.pay attention for packets
answers!!!
- The mRNA leaves the nucleus and travels to the
ribosome - Its code is held in groups of three nucleotides
(codons) - One codon codes for one amino acid
- UGCACGAUCGCA
- is read
- UGC-ACG-AUC-GCA
15How do you know what amino acid it codes for?
- There are 20 possible amino acids to choose from
- Example GGA codes for Glycine
- How about
- AUG
- UAU
- UAG
-
16Translation
- Occurs at the ribosome
- De-codes the message on mRNA
- Amino acids are bonded together in order to build
a polypeptide (protein)
17Steps of Translation
- 1) mRNA leaves the nucleus and travels to the
ribosome - 2) mRNA attaches to the ribosome at the start
codon - 3) tRNA attaches the correct amino acid to the
growing polypeptide (ex mRNA reads AUG ?
methionine is added)
18Steps of Translation
- 4) tRNA follows the base pairing rules and
matching the correct anticodon on the tRNA to its
codon on the mRNA - 5) The amino acids join together with peptide
bonds as the ribosome continues to move down the
mRNA and read its codons - 6) The ribosome stops when it reaches a stop
codon on the mRNA
19What is the result of translation? Why is it
important? Now your turn to practice on your
sheet
http//phschool.com/webcodes10/index.cfm?wcprefix
cbewcsuffix4123fuseactionhome.gotoWebCodex6
y14
20Uh-oh! Cells can make mistakes!!!!
- Mutations
- Gene mutation changes in a single gene
- Substitution
- Insertion
- Deletion
Point mutation
Frameshift mutation
21Mutations
- Chromosomal mutations changes in a whole
chromosome - Polyploid individuals have an extra set of
chromosomes
22Your turn
- Complete the two worksheets on mutations in class